WO2003079334A1 - Appareil de disque optique - Google Patents

Appareil de disque optique Download PDF

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Publication number
WO2003079334A1
WO2003079334A1 PCT/JP2002/003487 JP0203487W WO03079334A1 WO 2003079334 A1 WO2003079334 A1 WO 2003079334A1 JP 0203487 W JP0203487 W JP 0203487W WO 03079334 A1 WO03079334 A1 WO 03079334A1
Authority
WO
WIPO (PCT)
Prior art keywords
optical
optical disk
recording
optical disc
signal
Prior art date
Application number
PCT/JP2002/003487
Other languages
English (en)
French (fr)
Japanese (ja)
Inventor
Yuichi Maekawa
Original Assignee
Mitsumi Electric Co., Ltd.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Mitsumi Electric Co., Ltd. filed Critical Mitsumi Electric Co., Ltd.
Priority to US10/471,973 priority Critical patent/US7362670B2/en
Priority to AU2002247991A priority patent/AU2002247991A1/en
Priority to EP02717081A priority patent/EP1411503A4/de
Publication of WO2003079334A1 publication Critical patent/WO2003079334A1/ja

Links

Classifications

    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B19/00Driving, starting, stopping record carriers not specifically of filamentary or web form, or of supports therefor; Control thereof; Control of operating function ; Driving both disc and head
    • G11B19/02Control of operating function, e.g. switching from recording to reproducing
    • G11B19/12Control of operating function, e.g. switching from recording to reproducing by sensing distinguishing features of or on records, e.g. diameter end mark
    • GPHYSICS
    • G11INFORMATION STORAGE
    • G11BINFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
    • G11B7/00Recording or reproducing by optical means, e.g. recording using a thermal beam of optical radiation by modifying optical properties or the physical structure, reproducing using an optical beam at lower power by sensing optical properties; Record carriers therefor
    • G11B7/004Recording, reproducing or erasing methods; Read, write or erase circuits therefor
    • G11B7/006Overwriting
    • G11B7/0062Overwriting strategies, e.g. recording pulse sequences with erasing level used for phase-change media

Definitions

  • the present invention relates to an optical disk device.
  • This optical disk device is provided with a rotation drive mechanism for mounting an optical disk and rotating at a plurality of rotational speeds, and movably provided in the radial direction with respect to the mounted optical disk. It has an optical head (optical pickup) that can record (data), and an optical head moving mechanism that has a thread motor that moves the optical head in the radial direction.
  • a rotation drive mechanism for mounting an optical disk and rotating at a plurality of rotational speeds, and movably provided in the radial direction with respect to the mounted optical disk. It has an optical head (optical pickup) that can record (data), and an optical head moving mechanism that has a thread motor that moves the optical head in the radial direction.
  • the optical head consists of an optical head body (optical pickup base) equipped with a laser diode and a split photodiode, and the optical head body in the radial direction and the optical axis direction (rotation axis direction) of the optical disk.
  • the objective lens condensing lens supported by the suspension panel so that it can be displaced (moved), the focus lens is displaced in the optical axis direction, and the objective lens is displaced in the radial direction It is composed of Traky Ngakuchi Yue and one night.
  • an optical disk may be formatted in a format called packet write, and the formatted optical disk is a floppy disk ("Floppy" is a registered trademark). Can be used like
  • the formatting of the optical disk is performed at the same recording speed as the maximum recording speed when overwriting the optical disk 2 (the maximum recording speed of overwriting). For example, overwriting If the maximum recording speed is 10 ⁇ , the optical disk is also formatted at 10 ⁇ , and the format takes about 8 minutes.
  • An object of the present invention is to provide an optical disk device that can record on an optical disk such as an optical disk format in a relatively short time.
  • the present invention has a rotation drive mechanism for mounting an optical disc and rotating the disc at a plurality of rotational speeds, and an optical head capable of irradiating a laser beam onto the optical disc to overwrite information.
  • An optical disk device for recording, recording, or reproducing data on or from the optical disk via the optical head, wherein the optical disk is a blank disk having no recording history; and a recording speed higher than a maximum overwriting recording speed. It is characterized in that it is configured to be able to record with.
  • the present invention preferably has a blank disk identifying means for identifying whether or not the optical disk is a blank disk having no recording history.
  • the blank disk identification unit attempts to detect a predetermined signal from the optical disk via the optical head, and if the predetermined signal is not detected, identifies the optical disk as the blank disk. It is configured to
  • the optical head is configured to detect the predetermined signal while moving the optical head so as to cross a track of the optical disc.
  • the predetermined signal is detected while moving the optical head from at least one end of the recordable area of the optical disc to the other end.
  • the predetermined signal is an HF signal.
  • the optical disc is a CD-RW.
  • an optical disc such as a CD-RW
  • the recording time can be shortened in the first recording of data on an optical disc, such as when matting or recording normal information (data) on an optical disc.
  • a blank disk identification unit the user does not need to input that an optical disk such as a CD-RW is a blank disk having no recording history, thereby facilitating the operation.
  • FIG. 1 is a block diagram showing an embodiment of the optical disk device of the present invention.
  • FIG. 2 is a timing chart showing an ENCODE EFM signal from the encoder and a WRITE pulse signal from the laser control unit according to the present invention.
  • FIG. 1 is a block diagram showing an embodiment of the optical disk device of the present invention.
  • An optical disk device 1 shown in FIG. 1 is a drive device that records and reproduces (records and reproduces) an optical disk (such as a CD-RW) 2 that can be overwritten (rewritable). It is a drive device that can be used.
  • a spiral pre-group (WOBBLE) (not shown) is formed on the optical disc 2.
  • This pre-group is meandering at a predetermined period (22.05 kHz at 1 ⁇ speed), and the pre-group contains ATIP (Absolute Time In Pre-Groove) information.
  • ATIP Absolute Time In Pre-Groove
  • the AT IP information is bi-phase modulated, and further, FM-modulated at a carrier frequency of 22.05 kHz and recorded.
  • This pre-group functions as a guide groove when forming a pit Z land on the optical disc 2 (pit Z land recording). The pre-group is reproduced and used for controlling the rotation speed of the optical disk 2 and specifying the recording position (absolute time) on the optical disk 2. It is.
  • the optical disk device 1 has a rotation drive mechanism that mounts the optical disk 2 and rotates the optical disk 2 at a plurality of rotational speeds (rotations).
  • This rotation drive mechanism is mainly fixed to a spindle motor 11 for turning the turntable, a driver 23 for driving the spindle motor 11 and a rotating shaft of the spindle motor 11, and the optical disc 2 is It consists of a turntable (not shown) to be mounted.
  • the optical disc device 1 is an optical head that can move in the radial direction of the optical disc 2 (radial direction of the turntable) with respect to the loaded optical disc 2 (turntable).
  • optical pickup 3
  • optical head moving mechanism for moving the optical head 3 in the radial direction
  • control means 9 RF amplifier IC 40
  • support processor (DSP) 51 and decoder 52
  • a memory 53 for example, RAM, etc.
  • laser control unit 54 and an encoder 55.
  • the radial direction of the optical disc 2 will be simply referred to as
  • the optical head moving mechanism mainly includes a sled motor 7, a driver 22 for driving the sled motor 7, and a reduced speed transmission of the sled motor 7 for transmission. And a power transmission mechanism (not shown) that converts the motion into a linear motion.
  • the optical head 3 includes an optical head body (optical pickup base) (not shown) including a laser diode (light source) 5 and a split photodiode (light receiving unit) 6 for emitting laser light, and an objective lens (collector) not shown. Optical lens).
  • the driving of the laser diode 6 is controlled by a laser controller 54.
  • the objective lens is supported by a suspension spring (biasing means) (not shown) provided on the optical head main body, and is moved radially and in the optical axis direction of the objective lens relative to the optical head main body.
  • a suspension spring biasing means
  • optical axis direction of the objective lens is simply referred to as “optical axis direction”
  • rotation axis direction of the optical disc 2 is simply referred to as “rotation axis direction”.
  • the objective lens is arranged at a reference position (middle point) of the objective lens preset in the optical head body, that is, at a neutral position.
  • the reference position of the objective lens To the "reference position”.
  • the objective lens When the objective lens deviates from the reference position, the objective lens is urged toward the reference position by the restoring force of the suspension panel.
  • the optical head 3 has an actuator 4 for displacing (moving) the objective lens with respect to the optical head body.
  • This actuator 4 is a tracking actuator that displaces the objective lens in the radial direction with respect to the optical head body, and a focus actuator that displaces the objective lens in the optical axis direction (rotation axis direction). It is composed of 42 and Yue Ichigo.
  • the actuator 4 that is, the tracking actuator 41 and the forcing actuator 42 are respectively driven by the driver 21.
  • the control means 9 is usually composed of a microcomputer (CPU), and includes an optical head 3 (actuator 4 and laser diode 5 etc.), a thread motor 7 and a spindle motor 11 and an RF amplifier IC 40, It controls the entire optical disk device 1 such as the support processor 51, the decoder 52, the memory 53, the laser controller 54, the encoder 55, and the like.
  • the control means 9 has a built-in memory (R (M, RAM, etc.) 91.
  • the main function of the blank disk identification means for identifying (determining) whether or not the optical disk 2 is a blank disk having no recording history is achieved by the control means 9.
  • the blank disk identification means will be described later in detail.
  • An external device for example, a computer
  • An interface control unit (not shown), and communication can be performed between the optical disk device 1 and the external device.
  • the optical disk device 1 moves the optical head 3 to a target track (target address), and performs focus control, tracking control, thread control, rotation speed control (rotation speed control), and the like on the target track.
  • the information (data) is written (recorded) and the information (data) is read (reproduced) from the optical disc 2.
  • data (signal) is recorded on the optical disc 2
  • a pre-group formed on the optical disc 2 is reproduced (read), and thereafter, data is recorded along the pre-group.
  • the encoder 55 encodes the data, modulates the data by a modulation method called EF'M (Eight to Fourteen Modulation) (EFM modulation), and generates an ENCO DE EFM signal.
  • EF'M Eight to Fourteen Modulation
  • the ENCODE EFM signal is a signal composed of pulses having a length (period) of 3T to 11T, and is input from the encoder 55 to the laser control unit 54.
  • a WRIWRpulse signal (voltage), which is an analog signal, is output from a DZA converter (not shown) built in the control means 9 and input to the laser control unit 54.
  • the laser control unit 54 switches the level of the WRITE pulse signal from the control means 9 to a high level (H), an erase level, and a low level (L) based on the ENCODE EFM signal and outputs the same. Controls the driving of the laser diode 5 of the optical head 3.
  • FIG. 2 is a timing chart showing an ENCODE EFM signal from the encoder 55 and a WRITE pulse signal from the laser control unit 54.
  • the laser control unit 54 changes the level of the WRITE pulse signal to a high level (H) and a single level (L) while the level of the ENCODE EFM signal is high level (H).
  • the output is switched alternately, and the output of the laser light is raised (to write output).
  • the level of the ENCODE EFM signal is low (L)
  • the level of the WRITE pulse signal is set to the erase level (DC level) and output, and the output of the laser light is reduced.
  • the recording of data on the optical disc 2 is performed sequentially from the inner circumference to the outer circumference along the pre-group.
  • a predetermined ENCODE EFM signal (random EFM signal) is generated in addition to the above-mentioned ENCODE EFM signal.
  • This random EFM signal is used for adjusting the laser output (power control port) at the time of test writing to the test area in the OPC (Optimum Power Control) that determines the write output of the laser beam.
  • the level of the WRITE pulse signal from the laser control unit 54 is a constant level corresponding to the read output.
  • a laser beam is emitted from a laser diode 5 of the optical head 3 to a predetermined track of the optical disc 2. This laser light is reflected by the optical disk 2, and the reflected light is received by the split photodiode 6 of the optical head 3.
  • the split photodiode 6 outputs a current corresponding to the amount of received light. This current is converted to a voltage by an I_V amplifier (current-to-voltage converter), not shown, and output from the optical head 3. .
  • I_V amplifier current-to-voltage converter
  • the voltage (detection signal) output from the optical head 3 is input to the RF amplifier IC40, and the RF amplifier IC40 performs addition, amplification, and the like to generate an HF (RF) signal.
  • This HF signal is an analog signal corresponding to the pit and land written on the optical disc 2.
  • the HF signal is input to the service processor 51, where the signal is binarized and EFM (Eight to Fourteen Modulation) demodulated. As a result, an EFM signal is obtained.
  • This EFM signal is a pulse with a length (period) of 3T to 11T. Is a signal composed of
  • the EFM signal is decoded (converted) into data of a predetermined format (DATA signal) by the support processor 51 and input to the decoder 52.
  • the data is decoded by a decoder 52 into data of a predetermined format for communication (transmission), and transmitted to an external device (for example, a computer) via an interface control unit (not shown).
  • the tracking control, thread control, focus control and rotation speed control in the recording and reproducing operations as described above are performed as follows.
  • the signal (voltage) after current-to-voltage conversion from the divided photodiode 6 of the optical head 3 is input to the RF amplifier IC 40.
  • the RF amplifier IC 40 generates a tracking error signal (TE) (voltage) based on the current-to-voltage converted signal from the divided photodiode 6.
  • TE tracking error signal
  • the tracking error signal is a signal indicating the magnitude of the deviation of the objective lens from the center of the track in the radial direction and the direction thereof (the amount of deviation of the objective lens from the center of the track in the radial direction).
  • the tracking error signal is input to the support processor 51.
  • the support processor 51 performs predetermined signal processing such as phase inversion and amplification on the tracking error signal, thereby generating a tracking support signal (voltage).
  • a predetermined drive voltage is applied to the tracking actuator 41 via the dryno 21. By driving the tracking actuator 41, the objective lens is Move towards the center of the truck. That is, a tracking service is required.
  • the thread motor 7 is driven via the driver 22 to drive the optical head.
  • the object body is moved in the same direction as the direction in which the objective lens has moved, and the objective lens is controlled so as to return to the reference position (thread control is performed).
  • the pumps 1 to 40 are configured to convert the current from the divided photodiode 6 into a voltage.
  • the focus error signal (FE) (voltage) is generated based on the converted signal.
  • the focus error signal indicates the magnitude of the displacement of the objective lens in the optical axis direction (rotation axis direction) from the in-focus position and the direction (the deviation in the optical axis direction (rotation axis direction) of the objective lens from the in-focus position).
  • the focus error signal is input to the service processor 51.
  • the servo processor 51 performs predetermined signal processing such as phase inversion and amplification on the focus error signal, thereby generating a focus servo signal (voltage).
  • a predetermined drive voltage is applied to the focus actuator 42 through the dryino 21.
  • the control signal (voltage) for controlling the rotation speed (rotation speed) of the spindle motor 11, that is, the control signal for setting the rotation speed of the spindle motor 11 to a target value is provided in the thermoprocessor 51. Generated and input to Driver 23.
  • the driver 23 generates a drive signal (voltage) for driving the spindle motor 11 based on the control signal.
  • the drive signal output from the driver 23 is input to the spindle motor 11, and the spindle motor 11 is driven based on the drive signal, so that the spindle motor 11 rotates at a target value. It takes a po.
  • track jump control When the optical head 3 (objective lens) is moved to a target position on the optical disk 2, that is, to a target track (target address), track jump control is performed.
  • the driving of the thread head 7 and the driving of the actuator 4 are controlled respectively, and the coarse head (rough search), the fine seek (fine search), or a combination thereof is used to control the optical head 3 ( Move the objective lens) to the target track (target address).
  • the optical disc device 1 can set the recording speed (writing speed), that is, the rotation speed (rotation speed) of the optical disc 2 at the time of recording to a rotation speed of m steps (m is an integer of 2 or more). Is configured.
  • the recording speed that is, the rotation speed of the optical disk 2 at the time of recording, is 1 ⁇ (minimum speed), 2 ⁇ , 4 ⁇ , 6 ⁇ , 8 ⁇ , 10 ⁇ , 12 ⁇ , 16 ⁇ , 2 ⁇ It can be set to either 4x speed, 32x speed, etc.
  • N times speed (N is an integer of 2 or more) means 1 times speed (minimum speed) as the reference rotation speed (reference speed), and N times this reference speed. Therefore, when the recording speed is set to N times speed, the recording is performed with the rotation speed of the optical disc 2 set to N times the reference rotation speed.
  • a maximum recording speed when overwriting the optical disk 2 (hereinafter, simply referred to as "maximum recording speed of overwriting”) is set.
  • the optical disc 2 is a blank disc having no recording history (hereinafter, simply referred to as “blank disc”), that is, in the first recording on the optical disc 2, the optical disc device 1 It is configured to record at a high recording speed.
  • blank disc a blank disc having no recording history
  • the “recording” of the recording history includes not only recording of ordinary data but also, for example, a case where the optical disc 2 is formatted.
  • identification (determination) of whether the optical disk 2 is a blank disk is performed by blank disk identification means (control means 9).
  • the optical head 3 When discriminating whether or not the optical disc 2 is a blank disc, focus control, tracking control, and rotation speed control are performed, and the optical head 3 crosses the tracks and pre-groups of the optical disc 2 so that the optical head 3 crosses the tracks and pre-groups. While moving the probe 3 in the radial direction, an attempt is made to detect a predetermined signal (HF signal in this embodiment) via the optical head 3. In detecting the HF signal, the optical head 3 is moved from at least one end of the recordable area of the optical disc 2 to the other end.
  • a predetermined signal HF signal in this embodiment
  • the optical head 3 may be moved from the inner peripheral side to the outer peripheral side of the optical disk 2, and conversely, may be moved from the outer peripheral side to the inner peripheral side, but may be moved from the inner peripheral side to the outer peripheral side. It is preferred that
  • the optical Disc 2 is identified as a blank disc, and if an HF signal is detected, disc 2 is identified as a disc having a recording history.
  • the recording speed is set to a predetermined recording speed higher than the maximum recording speed for overwriting, and data is recorded on the optical disk 2 at that recording speed.
  • This recording includes, for example, a case where the optical disc 2 is formatted in various formats such as a packet write and a case where ordinary data is recorded.
  • the optical disk device 1 when the optical disk (blank disk) 2 having no recording history is formatted, or when normal data is recorded on the optical disk 2, the optical disk device 1 can be used for the optical disk device 1.
  • the second data recording can be performed in a relatively short time.
  • the user since the user has the plank disk identification means, the user does not need to input that the optical disk 2 is a blank disk, and the operation becomes easy.
  • the recording speed is set to a recording speed higher than the maximum overwriting speed and a maximum overwriting speed.
  • the recording speed may be set to any recording speed between the same recording speed as the maximum recording speed and the recording speed lower than the maximum recording speed for overwriting. It may be configured so that it can be set to the same recording speed as the maximum recording speed of overwriting, and it can be set to a recording speed higher than the maximum recording speed of overwriting or a recording speed lower than the maximum recording speed of overwriting. It may be configured as follows.
  • the optical disk 2 when the optical disk 2 is a blank disk, it is sufficient if the optical disk 2 can be recorded at a recording speed higher than the maximum recording speed of overwriting. Further, in the above embodiment, the blank disk identification means is provided, but in the present invention, the blank disk identification means may be omitted.
  • the blank disk identification means is not provided, for example, the user inputs from an external device (for example, a computer) that the optical disk 2 is a blank disk. What is necessary is just to set it as such.
  • the optical disk device of the present invention has been described based on the illustrated embodiment.
  • the present invention is not limited to this, and the configuration of each unit may be any configuration having the same function. Can be replaced.
  • the optical disk device of the present invention includes, for example, various types of optical disk devices that perform recording and reproduction (overwriting and reproduction) on optical disks that can be overwritten (rewritable) such as CD-RW, DVD-RW, and DVD-RAM. It can be applied to various kinds of dedicated optical disk devices.
  • optical disk device of the present invention can be applied to various types of optical disk devices that perform recording / reproduction or recording on a plurality of types of optical disks.
  • the recording time can be reduced in the first recording of data on an optical disc, for example, when formatting an optical disc or when recording normal information (data) on the optical disc. can do.
  • the apparatus has the blank disk identification means, the user does not need to input that the optical disk is a blank disk having no recording history, and the operation is facilitated.

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  • Optical Recording Or Reproduction (AREA)
  • Moving Of The Head For Recording And Reproducing By Optical Means (AREA)
PCT/JP2002/003487 2002-03-18 2002-04-08 Appareil de disque optique WO2003079334A1 (fr)

Priority Applications (3)

Application Number Priority Date Filing Date Title
US10/471,973 US7362670B2 (en) 2002-03-18 2002-04-08 Optical disc drive
AU2002247991A AU2002247991A1 (en) 2002-03-18 2002-04-08 Optical disc apparatus
EP02717081A EP1411503A4 (de) 2002-03-18 2002-04-08 Optische plattenvorrichtung

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
JP2002-74839 2002-03-18
JP2002074839A JP2003272162A (ja) 2002-03-18 2002-03-18 光ディスク装置

Publications (1)

Publication Number Publication Date
WO2003079334A1 true WO2003079334A1 (fr) 2003-09-25

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ID=28035328

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/JP2002/003487 WO2003079334A1 (fr) 2002-03-18 2002-04-08 Appareil de disque optique

Country Status (5)

Country Link
US (1) US7362670B2 (de)
EP (1) EP1411503A4 (de)
JP (1) JP2003272162A (de)
AU (1) AU2002247991A1 (de)
WO (1) WO2003079334A1 (de)

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7414929B2 (en) * 2004-09-22 2008-08-19 Lsi Corporation Optical disc tilt detection and tilt servo control method
JP4444912B2 (ja) * 2005-11-17 2010-03-31 キヤノン株式会社 ビデオカメラ

Citations (5)

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Publication number Priority date Publication date Assignee Title
JPS5224027A (en) * 1975-08-19 1977-02-23 Matsushita Electric Ind Co Ltd Record regenerator
JPS6145416A (ja) * 1984-08-10 1986-03-05 Hitachi Ltd 光学式記録再生装置における重ね記録防止方式
JPH04330639A (ja) * 1991-05-01 1992-11-18 Pioneer Electron Corp 光学式情報読取装置
JPH0527813U (ja) * 1991-09-06 1993-04-09 株式会社ケンウツド Cd−wo装置
JP2001344763A (ja) * 2000-03-30 2001-12-14 Tdk Corp 光記録方法、光記録装置および光記録媒体

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0527813A (ja) 1991-07-25 1993-02-05 Matsushita Electric Works Ltd プログラマブルコントローラ
TWI220982B (en) * 2001-03-19 2004-09-11 Ricoh Kk Writing method for optical disc, processing method for information, optical disc apparatus, and information processing apparatus

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5224027A (en) * 1975-08-19 1977-02-23 Matsushita Electric Ind Co Ltd Record regenerator
JPS6145416A (ja) * 1984-08-10 1986-03-05 Hitachi Ltd 光学式記録再生装置における重ね記録防止方式
JPH04330639A (ja) * 1991-05-01 1992-11-18 Pioneer Electron Corp 光学式情報読取装置
JPH0527813U (ja) * 1991-09-06 1993-04-09 株式会社ケンウツド Cd−wo装置
JP2001344763A (ja) * 2000-03-30 2001-12-14 Tdk Corp 光記録方法、光記録装置および光記録媒体

Non-Patent Citations (1)

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Title
See also references of EP1411503A4 *

Also Published As

Publication number Publication date
AU2002247991A1 (en) 2003-09-29
EP1411503A4 (de) 2005-01-12
JP2003272162A (ja) 2003-09-26
EP1411503A1 (de) 2004-04-21
US20040114485A1 (en) 2004-06-17
US7362670B2 (en) 2008-04-22

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